Category Archives: Materials

Spin control: reading the quantum bit

Quantum computing artwork
Image courtesy Arizona State University

Some days, I feel like I’m living in the future. Then I remember that I don’t have a flying car, a hyperintelligent monkey sidekick or a quantum computer. Granted, I’ve always suspected a flying car would be a terrible idea (and the less said about the monkey, the better), but I still want my iQuantum. So, what’s the hold up?

Quantum computing is one of those ideas that has enormous potential but is so cutting-edge that even its most basic aspects, like storing and reading data, require a large assortment of people with advanced degrees. Recently, two researchers worked out a way to read quantum states using entanglement, the “spooky action at a distance” that links two quantum particles under certain conditions. The method, which they hit upon while exploring electron-electron interactions, could solve the problem of reading quantum bits (aka “qubits”) once and for all.

ASU researchers untangle quantum quirk

Nanoionic memory: Vive la resistance

DDRAM computer memoryFor some time now, conventional computer memory has been heading toward a crunch—a physical limit of how much storage can be crammed into a space before it is overwhelmed by heat and power problems. Generally, researchers have tried to avert this heat death in two ways: leapfrogging to the next generation of memory or refining current memory.

Researchers at Arizona State University’s Center for Applied Nanoionics (CANi) have combined the two approaches to create new memory that amps up performance while remaining compatible with today’s devices. CANi also used nanoionics (a technique for moving tiny bits of matter around on a chip) to overcome the limitations of conventional electronics: Instead of moving electrons among ions, nanoionics moves the ions themselves.

Nanoionics may boost memory in consumer electronics